Title
On the use of the theory of critical distances with mesh control for fretting fatigue life assessment in complete and nearly complete contactsOther institutions
https://ror.org/01460j859Version
Published versionDocument type
Journal ArticleLanguage
EnglishRights
© 2022 ElsevierAccess
Embargoed accessPublisher’s version
http://doi.org/10.1016/j.tafmec.2022.103476Published at
Theoretical and Applied Fracture Mechanics 2022 Vol. 121. N. art. 103476Publisher
ElsevierKeywords
Fretting fatigue
Theory of Critical Distances (TCD)
Multiaxial fatigue
Mesh control ... [+]
Theory of Critical Distances (TCD)
Multiaxial fatigue
Mesh control ... [+]
Fretting fatigue
Theory of Critical Distances (TCD)
Multiaxial fatigue
Mesh control
ODS 9 Industria, innovación e infraestructura [-]
Theory of Critical Distances (TCD)
Multiaxial fatigue
Mesh control
ODS 9 Industria, innovación e infraestructura [-]
Subject (UNESCO Thesaurus)
Materials technologyUNESCO Classification
Materials technologyAbstract
In this work, the theory of critical distances using point method and mesh control approach for fretting fatigue life prediction in complete and nearly complete contacts is analysed. The approach is a ... [+]
In this work, the theory of critical distances using point method and mesh control approach for fretting fatigue life prediction in complete and nearly complete contacts is analysed. The approach is applied to thirty experimental tests found in the literature, where almost nine hundred simulations are carried out. The work concludes that the theory of critical distances using mesh control is able to predict the fretting fatigue strength of components using an optimum mesh size of 1.6 times the critical distance for all contact configurations analysed. Due to the use of an element size of around the critical distance length, the computational cost can be reduced up to 98% in comparison with the traditional theory of critical distances. [-]
Funder
Gobierno EspañolProgram
Fondo Europeo de Desarrollo Regional (FEDER)Elkartek 2021
Number
PID2020-118480RB-C21KK-2021-00089
Project
FEDERBISUM
Collections
- Articles - Engineering [930]


















